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|
/**
* Author: Sven Gothel <sgothel@jausoft.com>
* Copyright (c) 2020 Gothel Software e.K.
* Copyright (c) 2020 ZAFENA AB
*
* Author: Andrei Vasiliu <andrei.vasiliu@intel.com>
* Copyright (c) 2016 Intel Corporation.
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
* LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
* OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
* WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*
*/
package org.tinyb;
import java.util.List;
import java.util.Map;
/**
* Provides access to Bluetooth adapters. Follows the BlueZ adapter API
* available at: http://git.kernel.org/cgit/bluetooth/bluez.git/tree/doc/device-api.txt
*/
public interface BluetoothDevice extends BluetoothObject
{
@Override
public BluetoothDevice clone();
/** Find a BluetoothGattService. If parameter UUID is not null,
* the returned object will have to match it.
* It will first check for existing objects. It will not turn on discovery
* or connect to devices.
* @parameter UUID optionally specify the UUID of the BluetoothGattService you are
* waiting for
* @parameter timeoutMS the function will return after timeout time in milliseconds, a
* value of zero means wait forever. If object is not found during this time null will be returned.
* @return An object matching the UUID or null if not found before
* timeout expires or event is canceled.
*/
BluetoothGattService find(String UUID, long timeoutMS);
/** Find a BluetoothGattService. If parameter UUID is not null,
* the returned object will have to match it.
* It will first check for existing objects. It will not turn on discovery
* or connect to devices.
* @parameter UUID optionally specify the UUID of the BluetoothGattService you are
* waiting for
* @return An object matching the UUID or null if not found before
* timeout expires or event is canceled.
*/
BluetoothGattService find(String UUID);
/* Bluetooth method calls: */
/**
* <b>direct_bt.tinyb</b>: Disconnect the LE or BREDR peer's GATT and HCI connection.
* <p>
* BT Core Spec v5.2: Vol 4, Part E HCI: 7.1.6 Disconnect command
* </p>
* <p>
* The actual disconnect event will be delivered asynchronous and
* the connection event can be caught via AdapterStatusListener::deviceDisconnected(..).
* If unacceptable, {@link HCIStatusCode#UNACCEPTABLE_CONNECTION_PARAM} is being returned.
* </p>
* <p>
* The device will be removed from the managing adapter's connected devices
* when {@link AdapterStatusListener#deviceDisconnected(BluetoothDevice, HCIStatusCode, long)} has been received.
* </p>
* <p>
* An open GATT connection will also be closed.<br>
* The connection to this device is removed, removing all connected profiles.
* </p>
* <p>
* An application using one thread per device and rapid connect, should either use {@link #disconnect()} or {@link #remove()},
* but never issue remove() after disconnect(). Doing so would eventually delete the device being already
* in use by another thread due to discovery post disconnect!
* </p>
* @return {@link HCIStatusCode#SUCCESS} if the command has been accepted, otherwise {@link HCIStatusCode} may disclose reason for rejection.
* @since 2.1.0 change API, i.e. return value from boolean to HCIStatusCode in favor of <i>direct_bt</i>
*/
HCIStatusCode disconnect() throws BluetoothException;
/**
* <b>direct_bt.tinyb</b>: Establish a default HCI connection to this device, using certain default parameter.
* <p>
* BT Core Spec v5.2: Vol 4, Part E HCI: 7.8.12 LE Create Connection command <br>
* BT Core Spec v5.2: Vol 4, Part E HCI: 7.1.5 Create Connection command
* </p>
* <p>
* Depending on this device's addressType,
* either a BREDR (BDADDR_BREDR) or LE (BDADDR_LE_PUBLIC, BDADDR_LE_RANDOM) connection is attempted.<br>
* If unacceptable, {@link HCIStatusCode#UNACCEPTABLE_CONNECTION_PARAM} is being returned.
* </p>
* <p>
* The actual new connection handle will be delivered asynchronous and
* the connection event can be caught via {@link AdapterStatusListener#deviceConnected(BluetoothDevice, long)},
* or if failed via {@link AdapterStatusListener#deviceDisconnected(BluetoothDevice, HCIStatusCode, long)}.
* </p>
* <p>
* The device is tracked by the managing adapter.
* </p>
* <p>
* <b>tinyb.dbus</b>: A connection to this device is established, connecting each profile
* flagged as auto-connectable.
* </p>
* @return {@link HCIStatusCode#SUCCESS} if the command has been accepted, otherwise {@link HCIStatusCode} may disclose reason for rejection.
* @see #connectLE(short, short, short, short, short, short)
* @since 2.1.0 change API, i.e. return value from boolean to HCIStatusCode in favor of <i>direct_bt</i>
*/
HCIStatusCode connect() throws BluetoothException;
/**
* Establish a HCI BDADDR_LE_PUBLIC or BDADDR_LE_RANDOM connection to this device.
* <p>
* BT Core Spec v5.2: Vol 4, Part E HCI: 7.8.12 LE Create Connection command
* </p>
* <p>
* If this device's {@link #getAddressType()} is not BDADDR_LE_PUBLIC or BDADDR_LE_RANDOM,
* {@link HCIStatusCode#UNACCEPTABLE_CONNECTION_PARAM} is being returned.
* </p>
* <p>
* The actual new connection handle will be delivered asynchronous and
* the connection event can be caught via {@link AdapterStatusListener#deviceConnected(BluetoothDevice, long)},
* or if failed via {@link AdapterStatusListener#deviceDisconnected(BluetoothDevice, HCIStatusCode, long)}.
* </p>
* <p>
* The device is tracked by the managing adapter.
* </p>
* <p>
* Default parameter are used if {@code -1} has been passed for any of the arguments.
* </p>
* <p>
* Default parameter values are chosen for using public address resolution
* and usual connection latency, interval etc.
* </p>
* <p>
* Set window to the same value as the interval, enables continuous scanning.
* </p>
*
* @param le_scan_interval in units of 0.625ms, default value 24 for 15ms; Value range [4 .. 0x4000] for [2.5ms .. 10.24s]
* @param le_scan_window in units of 0.625ms, default value 24 for 15ms; Value range [4 .. 0x4000] for [2.5ms .. 10.24s]. Shall be <= le_scan_interval
* @param conn_interval_min in units of 1.25ms, default value 12 for 15ms; Value range [6 .. 3200] for [7.5ms .. 4000ms]
* @param conn_interval_max in units of 1.25ms, default value 12 for 15ms; Value range [6 .. 3200] for [7.5ms .. 4000ms]
* @param conn_latency slave latency in units of connection events, default value 0; Value range [0 .. 0x01F3].
* @param supervision_timeout in units of 10ms, default value >= 10 x conn_interval_max, we use 500 ms minimum; Value range [0xA-0x0C80] for [100ms - 32s].
* @return {@link HCIStatusCode#SUCCESS} if the command has been accepted, otherwise {@link HCIStatusCode} may disclose reason for rejection.
* @see BluetoothUtils#getHCIConnSupervisorTimeout(int, int, int, int)
* @see #connect()
* @since 2.1.0 change API, i.e. return value from boolean to HCIStatusCode in favor of <i>direct_bt</i>
* @implNote not implemented in <b>tinyb.dbus</b>
*/
HCIStatusCode connectLE(final short le_scan_interval, final short le_scan_window,
final short conn_interval_min, final short conn_interval_max,
final short conn_latency, final short supervision_timeout);
/** Connects a specific profile available on the device, given by UUID
* @param arg_UUID The UUID of the profile to be connected
* @return TRUE if the profile connected successfully
*/
boolean connectProfile(String arg_UUID) throws BluetoothException;
/** Disconnects a specific profile available on the device, given by UUID
* @param arg_UUID The UUID of the profile to be disconnected
* @return TRUE if the profile disconnected successfully
*/
boolean disconnectProfile(String arg_UUID) throws BluetoothException;
/**
* Returns the available {@link SMPKeyMask.KeyType} {@link SMPKeyMask} for the responder (LL slave) or initiator (LL master).
* @param responder if true, queries the responder (LL slave) key, otherwise the initiator (LL master) key.
* @return {@link SMPKeyMask.KeyType} {@link SMPKeyMask} result
* @since 2.2.0
* @implNote not implemented in tinyb.dbus
*/
SMPKeyMask getAvailableSMPKeys(final boolean responder);
/**
* Returns a copy of the long term key (LTK) info, valid after connection and SMP pairing has been completed.
* @param responder true will return the responder's LTK info (remote device, LL slave), otherwise the initiator's (the LL master).
* @return the resulting key. {@link SMPLongTermKeyInfo#enc_size} will be zero if invalid.
* @see {@link SMPPairingState#COMPLETED}
* @see {@link AdapterStatusListener#deviceReady(BluetoothDevice, long)}
* @since 2.2.0
* @implNote not implemented in tinyb.dbus
*/
SMPLongTermKeyInfo getLongTermKeyInfo(final boolean responder);
/**
* Sets the long term ket (LTK) info of this device to reuse pre-paired encryption.
* <p>
* Must be called before connecting to this device, otherwise {@link HCIStatusCode#CONNECTION_ALREADY_EXISTS} will be returned.
* </p>
* @param ltk the pre-paired encryption LTK
* @return {@link HCIStatusCode#SUCCESS} if successful, otherwise the appropriate error code.
* @since 2.2.0
* @implNote not implemented in tinyb.dbus
*/
HCIStatusCode setLongTermKeyInfo(final SMPLongTermKeyInfo ltk);
/**
* Returns a copy of the Signature Resolving Key (LTK) info, valid after connection and SMP pairing has been completed.
* @param responder true will return the responder's LTK info (remote device, LL slave), otherwise the initiator's (the LL master).
* @return the resulting key
* @see {@link SMPPairingState#COMPLETED}
* @see {@link AdapterStatusListener#deviceReady(BluetoothDevice, long)}
* @since 2.2.0
* @implNote not implemented in tinyb.dbus
*/
SMPSignatureResolvingKeyInfo getSignatureResolvingKeyInfo(final boolean responder);
/**
* A secure connection to this device is established, and the device is then paired.
* <p>
* For direct_bt use {@link #setConnSecurity(BTSecurityLevel, SMPIOCapability) setConnSecurity(..) or its variants}
* and {@link #connectLE(short, short, short, short, short, short) connectLE(..)}.
* </p>
* @return TRUE if the device connected and paired
* @implNote not implemented in direct_bt.tinyb
*/
boolean pair() throws BluetoothException;
/**
* Unpairs this device from the adapter while staying connected.
* <p>
* All keys will be cleared within the adapter and host implementation.<br>
* Should rarely being used by user.<br>
* Internally being used to re-start pairing if GATT connection fails
* in {@link PairingMode#PRE_PAIRED} mode.
* </p>
* @return {@link HCIStatusCode#SUCCESS} or an appropriate error status.
* @since 2.1.0
* @implNote not implemented in tinyb.dbus
*/
HCIStatusCode unpair();
/**
* Set the {@link BTSecurityLevel} used to connect to this device on the upcoming connection.
* <p>
* Method returns false if {@link BTSecurityLevel#UNSET} has been given,
* operation fails, this device has already being connected,
* or {@link #connectLE(short, short, short, short, short, short) connectLE} or {@link #connect()} has been issued already.
* </p>
* <p>
* To ensure a consistent authentication setup,
* it is advised to set {@link SMPIOCapability#NO_INPUT_NO_OUTPUT} for sec_level <= {@link BTSecurityLevel#ENC_ONLY}
* using {@link #setConnSecurity(BTSecurityLevel, SMPIOCapability, boolean) setConnSecurity(..)}
* as well as an IO capable {@link SMPIOCapability} value
* for {@link BTSecurityLevel#ENC_AUTH} or {@link BTSecurityLevel#ENC_AUTH_FIPS}.<br>
* You may like to consider using {@link #setConnSecurityBest(BTSecurityLevel, SMPIOCapability)}.
* </p>
* @param sec_level {@link BTSecurityLevel} to be applied, {@link BTSecurityLevel#UNSET} will be ignored and method fails.
* @return
* @since 2.1.0
* @implNote not implemented in tinyb.dbus
* @see BTSecurityLevel
* @see SMPIOCapability
* @see #getConnSecurityLevel()
* @see #setConnIOCapability(SMPIOCapability)
* @see #getConnIOCapability()
* @see #setConnSecurity(BTSecurityLevel, SMPIOCapability)
* @see #setConnSecurityBest(BTSecurityLevel, SMPIOCapability)
*/
boolean setConnSecurityLevel(final BTSecurityLevel sec_level);
/**
* Return the {@link BTSecurityLevel}, determined when the connection is established.
* @since 2.1.0
* @implNote not implemented in tinyb.dbus
* @see BTSecurityLevel
* @see SMPIOCapability
* @see #setConnSecurityLevel(BTSecurityLevel)
* @see #setConnIOCapability(SMPIOCapability, boolean)
* @see #getConnIOCapability()
* @see #setConnSecurity(BTSecurityLevel, SMPIOCapability, boolean)
* @see #setConnSecurityBest(BTSecurityLevel, SMPIOCapability)
*/
BTSecurityLevel getConnSecurityLevel();
/**
* Sets the given {@link SMPIOCapability} used to connect to this device on the upcoming connection.
* <p>
* Method returns false if {@link SMPIOCapability#UNSET} has been given,
* operation fails, this device has already being connected,
* or {@link #connectLE(short, short, short, short, short, short) connectLE} or {@link #connect()} has been issued already.
* </p>
* @param io_cap {@link SMPIOCapability} to be applied, {@link SMPIOCapability#UNSET} will be ignored and method fails.
* @since 2.1.0
* @implNote not implemented in tinyb.dbus
* @see BTSecurityLevel
* @see SMPIOCapability
* @see #setConnSecurityLevel(BTSecurityLevel)
* @see #getConnSecurityLevel()
* @see #getConnIOCapability()
* @see #setConnSecurity(BTSecurityLevel, SMPIOCapability)
* @see #setConnSecurityBest(BTSecurityLevel, SMPIOCapability)
*/
boolean setConnIOCapability(final SMPIOCapability io_cap);
/**
* Return the {@link SMPIOCapability} value, determined when the connection is established.
* @since 2.1.0
* @implNote not implemented in tinyb.dbus
* @see BTSecurityLevel
* @see SMPIOCapability
* @see #setConnSecurityLevel(BTSecurityLevel)
* @see #getConnSecurityLevel()
* @see #setConnIOCapability(SMPIOCapability)
* @see #setConnSecurity(BTSecurityLevel, SMPIOCapability)
* @see #setConnSecurityBest(BTSecurityLevel, SMPIOCapability)
*/
SMPIOCapability getConnIOCapability();
/**
* Sets the given {@link BTSecurityLevel} and {@link SMPIOCapability} used to connect to this device on the upcoming connection.
* <p>
* Method returns false if {@link BTSecurityLevel#UNSET} or {@link SMPIOCapability#UNSET} has been given,
* operation fails, this device has already being connected,
* or {@link #connectLE(short, short, short, short, short, short) connectLE} or {@link #connect()} has been issued already.
* </p>
* <p>
* Method either changes both parameter for the upcoming connection or none at all.
* </p>
* @param sec_level {@link BTSecurityLevel} to be applied, {@link BTSecurityLevel#UNSET} will be ignored and method fails.
* @param io_cap {@link SMPIOCapability} to be applied, {@link SMPIOCapability#UNSET} will be ignored and method fails.
* @since 2.1.0
* @implNote not implemented in tinyb.dbus
* @see BTSecurityLevel
* @see SMPIOCapability
* @see #setConnSecurityLevel(BTSecurityLevel)
* @see #getConnSecurityLevel()
* @see #setConnIOCapability(SMPIOCapability)
* @see #getConnIOCapability()
* @see #setConnSecurityBest(BTSecurityLevel, SMPIOCapability)
*/
boolean setConnSecurity(final BTSecurityLevel sec_level, final SMPIOCapability io_cap);
/**
* Convenience method to determine the best practice {@link BTSecurityLevel} and {@link SMPIOCapability}
* based on the given arguments, used to connect to this device on the upcoming connection.
* <pre>
* if( BTSecurityLevel::UNSET < sec_level && SMPIOCapability::UNSET != io_cap ) {
* return setConnSecurity(sec_level, io_cap);
* } else if( BTSecurityLevel::UNSET < sec_level ) {
* if( BTSecurityLevel::ENC_ONLY >= sec_level ) {
* return setConnSecurity(sec_level, SMPIOCapability::NO_INPUT_NO_OUTPUT);
* } else {
* return setConnSecurityLevel(sec_level);
* }
* } else if( SMPIOCapability::UNSET != io_cap ) {
* return setConnIOCapability(io_cap);
* } else {
* return false;
* }
* </pre>
* <p>
* Method returns false if {@link BTSecurityLevel#UNSET} and {@link SMPIOCapability#UNSET} has been given,
* operation fails, this device has already being connected,
* or {@link #connectLE(short, short, short, short, short, short) connectLE} or {@link #connect()} has been issued already.
* </p>
* @param sec_level {@link BTSecurityLevel} to be applied.
* @param io_cap {@link SMPIOCapability} to be applied.
* @since 2.1.0
* @implNote not implemented in tinyb.dbus
* @see BTSecurityLevel
* @see SMPIOCapability
* @see #setConnSecurityLevel(BTSecurityLevel)
* @see #getConnSecurityLevel()
* @see #setConnIOCapability(SMPIOCapability)
* @see #getConnIOCapability()
* @see #setConnSecurity(BTSecurityLevel, SMPIOCapability)
*/
boolean setConnSecurityBest(final BTSecurityLevel sec_level, final SMPIOCapability io_cap);
/**
* Method sets the given passkey entry, see {@link PairingMode#PASSKEY_ENTRY_ini}.
* <p>
* Call this method if the device shall be securely paired with {@link PairingMode#PASSKEY_ENTRY_ini},
* i.e. when notified via {@link AdapterStatusListener#devicePairingState(BluetoothDevice, SMPPairingState, PairingMode, long) devicePairingState}
* in state {@link SMPPairingState#PASSKEY_EXPECTED}.
* </p>
*
* @param passkey used for {@link PairingMode#PASSKEY_ENTRY_ini} method.
* Will be encrypted before sending to counter-party.
*
* @return {@link HCIStatusCode#SUCCESS} if the command has been accepted, otherwise {@link HCIStatusCode} may disclose reason for rejection.
* @see PairingMode
* @see SMPPairingState
* @see AdapterStatusListener#devicePairingState(BluetoothDevice, SMPPairingState, PairingMode, long)
* @see #setPairingPasskey(int)
* @see #setPairingNumericComparison(boolean)
* @see #getPairingMode()
* @see #getPairingState()
* @since 2.1.0
* @implNote not implemented in tinyb.dbus
*/
HCIStatusCode setPairingPasskey(final int passkey);
/**
* Method sets the numeric comparison result, see {@link PairingMode#NUMERIC_COMPARE_ini}.
* <p>
* Call this method if the device shall be securely paired with {@link PairingMode#NUMERIC_COMPARE_ini},
* i.e. when notified via {@link AdapterStatusListener#devicePairingState(BluetoothDevice, SMPPairingState, PairingMode, long) devicePairingState}
* in state {@link SMPPairingState#NUMERIC_COMPARE_EXPECTED}.
* </p>
*
* @param equal used for {@link PairingMode#NUMERIC_COMPARE_ini} method.
* Will be encrypted before sending to counter-party.
*
* @return {@link HCIStatusCode#SUCCESS} if the command has been accepted, otherwise {@link HCIStatusCode} may disclose reason for rejection.
* @see PairingMode
* @see SMPPairingState
* @see AdapterStatusListener#devicePairingState(BluetoothDevice, SMPPairingState, PairingMode, long)
* @see #setPairingPasskey(int)
* @see #setPairingNumericComparison(boolean)
* @see #getPairingMode()
* @see #getPairingState()
* @since 2.1.0
* @implNote not implemented in tinyb.dbus
*/
HCIStatusCode setPairingNumericComparison(final boolean equal);
/**
* Returns the current {@link PairingMode} used by the device.
* <p>
* If the device is not paired, the current mode is {@link PairingMode#NONE}.
* </p>
* <p>
* If the Pairing Feature Exchange is completed, i.e. {@link SMPPairingState#FEATURE_EXCHANGE_COMPLETED}
* as notified by
* {@link AdapterStatusListener#devicePairingState(BluetoothDevice, SMPPairingState, PairingMode, long) devicePairingState}
* the current mode reflects the currently used {@link PairingMode}.
* </p>
* <p>
* In case the Pairing Feature Exchange is in progress, the current mode is {@link PairingMode#NEGOTIATING}.
* </p>
* @return current PairingMode.
* @see PairingMode
* @see SMPPairingState
* @see AdapterStatusListener#devicePairingState(BluetoothDevice, SMPPairingState, PairingMode, long)
* @see #setPairingPasskey(int)
* @see #setPairingNumericComparison(boolean)
* @see #getPairingMode()
* @see #getPairingState()
* @since 2.1.0
* @implNote not implemented in tinyb.dbus
*/
PairingMode getPairingMode();
/**
* Returns the current {@link SMPPairingState}.
* <p>
* If the device is not paired, the current state is {@link SMPPairingState#NONE}.
* </p>
* @see PairingMode
* @see SMPPairingState
* @see AdapterStatusListener#devicePairingState(BluetoothDevice, SMPPairingState, PairingMode, long)
* @see #setPairingPasskey(int)
* @see #setPairingNumericComparison(boolean)
* @see #getPairingMode()
* @see #getPairingState()
* @since 2.1.0
* @implNote not implemented in tinyb.dbus
*/
SMPPairingState getPairingState();
/**
* Remove this device from the system (like an unpair).
* <p>
* Direct-BT: Disconnects this device via disconnect(..) if getConnected()==true
* and explicitly removes its shared references from the Adapter:
* connected-devices, discovered-devices and shared-devices.
* </p>
* <p>
* This method shall be issued to ensure no device reference will
* be leaked in a long lived adapter,
* as only its reference within connected-devices and discovered-devices are removed at disconnect.
* </p>
* <p>
* After calling this method, this instance is destroyed and shall not be used anymore!
* </p>
* <p>
* This method is automatically called @ destructor.
* </p>
* <p>
* This method is an atomic operation.
* </p>
* <p>
* An application using one thread per device and rapid connect, should either use disconnect() or remove(),
* but never issue remove() after disconnect() if the device is in use.
* </p>
* @return TRUE if the device has been removed
* @throws BluetoothException
*/
boolean remove() throws BluetoothException;
/** Cancels an initiated pairing operation
* @return TRUE if the paring is cancelled successfully
*/
boolean cancelPairing() throws BluetoothException;
/** Returns a list of BluetoothGattServices available on this device.
* @return A list of BluetoothGattServices available on this device,
* NULL if an error occurred
*/
List<BluetoothGattService> getServices();
/**
* Issues a GATT ping to the device, validating whether it is still reachable.
* <p>
* This method could be periodically utilized to shorten the underlying OS disconnect period
* after turning the device off, which lies within 7-13s.
* </p>
* <p>
* In case the device is no more reachable, disconnect will be initiated due to the occurring IO error.
* </p>
* <p>
* GATT services must have been initialized via {@link #getServices()}, otherwise {@code false} is being returned.
* </p>
* @return {@code true} if successful or not implemented, otherwise false in case no GATT services exists or is not connected..
* @since 2.0.0
* @implNote not implemented in tinyb.dbus.
*/
boolean pingGATT();
/**
* Returns the timestamp in monotonic milliseconds when this device instance has been created,
* either via its initial discovery or its initial direct connection.
*
* @see BluetoothUtils#currentTimeMillis()
* @since 2.0.0
*/
long getCreationTimestamp();
/**
* Returns the timestamp in monotonic milliseconds when this device instance has
* discovered or connected directly the last time.
*
* @see BluetoothUtils#currentTimeMillis()
* @since 2.0.0
* @implNote not implemented in tinyb.dbus, returns {@link #getCreationTimestamp()}
*/
long getLastDiscoveryTimestamp();
/**
* Returns the timestamp in monotonic milliseconds when this device instance underlying data
* has been updated the last time.
*
* @see BluetoothUtils#currentTimeMillis()
* @since 2.0.0
* @implNote not implemented in tinyb.dbus, returns {@link #getCreationTimestamp()}
*/
long getLastUpdateTimestamp();
/**
* Returns the unique device {@link EUI48} address and {@link BDAddressType} type.
* @since 2.2.0
* @implNote not fully implemented in <b>tinyb.dbus</b>, uses {@link BDAddressType#BDADDR_LE_PUBLIC}
*/
BDAddressAndType getAddressAndType();
/**
* Returns the hardware address of this device in its string representation.
* @return The hardware address of this device as a string.
* @since 2.2.0
* @deprecated Use {@link #getAddressAndType()}
*/
@Deprecated
String getAddressString();
/** Returns the remote friendly name of this device.
* @return The remote friendly name of this device, or NULL if not set.
*/
String getName();
/** Returns an alternative friendly name of this device.
* @return The alternative friendly name of this device, or NULL if not set.
*/
String getAlias();
/** Sets an alternative friendly name of this device.
*/
void setAlias(String value);
/** Returns the Bluetooth class of the device.
* @return The Bluetooth class of the device.
*/
int getBluetoothClass();
/** Returns the appearance of the device, as found by GAP service.
* @return The appearance of the device, as found by GAP service.
*/
short getAppearance();
/** Returns the proposed icon name of the device.
* @return The proposed icon name, or NULL if not set.
*/
String getIcon();
/** Returns the paired state the device.
* @return The paired state of the device.
*/
boolean getPaired();
/**
* Enables notifications for the paired property and calls run function of the
* BluetoothNotification object.
* @param callback A BluetoothNotification<Boolean> object. Its run function will be called
* when a notification is issued. The run function will deliver the new value of the paired
* property.
*/
void enablePairedNotifications(BluetoothNotification<Boolean> callback);
/**
* Disables notifications of the paired property and unregisters the callback
* object passed through the corresponding enable method.
*/
void disablePairedNotifications();
/** Returns the trusted state the device.
* @return The trusted state of the device.
*/
boolean getTrusted();
/**
* Enables notifications for the trusted property and calls run function of the
* BluetoothNotification object.
* @param callback A BluetoothNotification<Boolean> object. Its run function will be called
* when a notification is issued. The run function will deliver the new value of the trusted
* property.
*/
void enableTrustedNotifications(BluetoothNotification<Boolean> callback);
/**
* Disables notifications of the trusted property and unregisters the callback
* object passed through the corresponding enable method.
*/
void disableTrustedNotifications();
/** Sets the trusted state the device.
*/
void setTrusted(boolean value);
/** Returns the blocked state the device.
* @return The blocked state of the device.
*/
boolean getBlocked();
/**
* Enables notifications for the blocked property and calls run function of the
* BluetoothNotification object.
* @param callback A BluetoothNotification<Boolean> object. Its run function will be called
* when a notification is issued. The run function will deliver the new value of the blocked
* property.
*/
void enableBlockedNotifications(BluetoothNotification<Boolean> callback);
/**
* Disables notifications of the blocked property and unregisters the callback
* object passed through the corresponding enable method.
*/
void disableBlockedNotifications();
/** Sets the blocked state the device.
*/
void setBlocked(boolean value);
/** Returns if device uses only pre-Bluetooth 2.1 pairing mechanism.
* @return True if device uses only pre-Bluetooth 2.1 pairing mechanism.
*/
boolean getLegacyPairing();
/** Returns the Received Signal Strength Indicator of the device.
* @return The Received Signal Strength Indicator of the device.
*/
short getRSSI();
/**
* Enables notifications for the RSSI property and calls run function of the
* BluetoothNotification object.
* @param callback A BluetoothNotification<Short> object. Its run function will be called
* when a notification is issued. The run function will deliver the new value of the RSSI
* property.
*/
void enableRSSINotifications(BluetoothNotification<Short> callback);
/**
* Disables notifications of the RSSI property and unregisters the callback
* object passed through the corresponding enable method.
*/
void disableRSSINotifications();
/** Returns the connected state of the device.
* @return The connected state of the device.
*/
boolean getConnected();
/**
* Return the HCI connection handle to the LE or BREDR peer, zero if not connected.
* @since 2.1.0
* @implNote not implemented in <b>tinyb.dbus</b>
*/
short getConnectionHandle();
/**
* Enables notifications for the connected property and calls run function of the
* BluetoothNotification object.
* @param callback A BluetoothNotification<Boolean> object. Its run function will be called
* when a notification is issued. The run function will deliver the new value of the connected
* property.
*/
void enableConnectedNotifications(BluetoothNotification<Boolean> callback);
/**
* Disables notifications of the connected property and unregisters the callback
* object passed through the corresponding enable method.
*/
void disableConnectedNotifications();
/** Returns the UUIDs of the device.
* @return Array containing the UUIDs of the device, ends with NULL.
*/
String[] getUUIDs();
/** Returns the local ID of the adapter.
* @return The local ID of the adapter.
*/
String getModalias();
/** Returns the adapter on which this device was discovered or
* connected.
* @return The adapter.
*/
BluetoothAdapter getAdapter();
/** Returns a map containing manufacturer specific advertisement data.
* An entry has a uint16_t key and an array of bytes.
* @return manufacturer specific advertisement data.
*/
Map<Short, byte[]> getManufacturerData();
/**
* Enables notifications for the manufacturer data property and calls run function of the
* BluetoothNotification object.
* @param callback A BluetoothNotification<Map<Short, byte[]> > object. Its run function will be called
* when a notification is issued. The run function will deliver the new value of the manufacturer data
* property.
*/
void enableManufacturerDataNotifications(
BluetoothNotification<Map<Short, byte[]>> callback);
/**
* Disables notifications of the manufacturer data property and unregisters the callback
* object passed through the corresponding enable method.
*/
void disableManufacturerDataNotifications();
/** Returns a map containing service advertisement data.
* An entry has a UUID string key and an array of bytes.
* @return service advertisement data.
*/
Map<String, byte[]> getServiceData();
/**
* Enables notifications for the service data property and calls run function of the
* BluetoothNotification object.
* @param callback A BluetoothNotification<Map<String, byte[]> > object. Its run function will be called
* when a notification is issued. The run function will deliver the new value of the service data
* property.
*/
void enableServiceDataNotifications(
BluetoothNotification<Map<String, byte[]>> callback);
/**
* Disables notifications of the service data property and unregisters the callback
* object passed through the corresponding enable method.
*/
void disableServiceDataNotifications();
/** Returns the transmission power level (0 means unknown).
* @return the transmission power level (0 means unknown).
*/
short getTxPower();
/** Returns true if service discovery has ended.
* @return true if the service discovery has ended.
*/
boolean getServicesResolved();
/**
* Enables notifications for the services resolved property and calls run function of the
* BluetoothNotification object.
* @param callback A BluetoothNotification<Boolean> object. Its run function will be called
* when a notification is issued. The run function will deliver the new value of the services resolved
* property.
*/
void enableServicesResolvedNotifications(
BluetoothNotification<Boolean> callback);
/**
* Disables notifications of the services resolved property and unregisters the callback
* object passed through the corresponding enable method.
*/
void disableServicesResolvedNotifications();
/**
* Add the given {@link GATTCharacteristicListener} to the listener list if not already present.
* <p>
* To enable the actual BLE notification and/or indication, one needs to call
* {@link BluetoothGattCharacteristic#configNotificationIndication(boolean, boolean, boolean[])}
* or {@link BluetoothGattCharacteristic#enableNotificationOrIndication(boolean[])}.
* </p>
* @param listener A {@link GATTCharacteristicListener} instance, listening to all {@link BluetoothGattCharacteristic} events of this device
* @return true if the given listener is not element of the list and has been newly added, otherwise false.
* @throws IllegalStateException if the {@link BluetoothDevice}'s GATTHandler is null, i.e. not connected
* @throws IllegalStateException if the given {@link GATTCharacteristicListener} is already in use, i.e. added.
* @see BluetoothGattCharacteristic#configNotificationIndication(boolean, boolean, boolean[])
* @see BluetoothGattCharacteristic#enableNotificationOrIndication(boolean[])
* @since 2.0.0
* @implNote not implemented in <b>tinyb.dbus</b>
*/
public boolean addCharacteristicListener(final GATTCharacteristicListener listener)
throws IllegalStateException;
/**
* Remove the given {@link GATTCharacteristicListener} from the listener list.
* <p>
* If the {@link BluetoothDevice}'s GATTHandler is null, i.e. not connected, {@code false} is being returned.
* </p>
* @param listener A {@link GATTCharacteristicListener} instance
* @return true if the given listener is an element of the list and has been removed, otherwise false.
* @since 2.0.0
* @implNote not implemented in <b>tinyb.dbus</b>
*/
public boolean removeCharacteristicListener(final GATTCharacteristicListener l);
/**
* Remove all {@link GATTCharacteristicListener} from the list, which are associated to the given {@link BluetoothGattCharacteristic}.
* <p>
* Implementation tests all listener's {@link GATTCharacteristicListener#getAssociatedCharacteristic()}
* to match with the given associated characteristic.
* </p>
* @param associatedCharacteristic the match criteria to remove any GATTCharacteristicListener from the list
* @return number of removed listener.
* @since 2.0.0
* @implNote not implemented in <b>tinyb.dbus</b>
*/
public int removeAllAssociatedCharacteristicListener(final BluetoothGattCharacteristic associatedCharacteristic);
/**
* Remove all {@link GATTCharacteristicListener} from the list.
* @return number of removed listener.
* @since 2.0.0
* @implNote not implemented in <b>tinyb.dbus</b>
*/
public int removeAllCharacteristicListener();
}
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